Link of volcanic activity and climate change in Altai studied in the ice core from Belukha Mountain

In the present research we discuss a role of volcanic activity in Altai thermal regime. Here we analyses the sulfate and temperature data reconstructed from the natural paleoarchive – ice core from the Belukha Mountain saddle. Sulfate ice-core reconstructions can serve as volcanic markers. The both...

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Published in:Earth Sciences Research Journal
Main Authors: N. Malygina S., T. Barlyaeva V., T. Papina S., Н. Малыгина С., Т. Барляева В., Т. Папина С.
Format: Article in Journal/Newspaper
Language:Russian
Published: IGRAS 2015
Subjects:
Altai;climate change;ice core;volcanic eruptions
Annals of Glaciology
ice core
Белуха
Online Access:https://ice-snow.igras.ru/jour/article/view/107
https://doi.org/10.15356/2076-6734-2013-2-112-120
id ftjias:oai:oai.ice.elpub.ru:article/107
record_format openpolar
institution Open Polar
collection Ice and Snow
op_collection_id ftjias
language Russian
topic Altai;climate change;ice core;volcanic eruptions
spellingShingle Altai;climate change;ice core;volcanic eruptions
N. Malygina S.
T. Barlyaeva V.
T. Papina S.
Н. Малыгина С.
Т. Барляева В.
Т. Папина С.
Link of volcanic activity and climate change in Altai studied in the ice core from Belukha Mountain
topic_facet Altai;climate change;ice core;volcanic eruptions
description In the present research we discuss a role of volcanic activity in Altai thermal regime. Here we analyses the sulfate and temperature data reconstructed from the natural paleoarchive – ice core from the Belukha Mountain saddle. Sulfate ice-core reconstructions can serve as volcanic markers. The both – sulfate and temperature reconstructions – are for the last 750 years. As the characteristic of volcanic activity we consider Volcanic Explosivity Index (VEI), Dust Veil Index (DVI) and Ice core volcanic index (IVI). The analysis was done using wavelet analysis and analysis of wavelet cross coherence and phase. As the result, we conclude that observed increases in the values of the indexes VEI, DVI, IVI basically correspond to decreases of temperature and increases of sulfate concentrations. This confirms the dependence of changes in the thermal regime of the Altai from volcanic activity. But in the 1750–1850 years period there is a delay of the changes in temperature with respect to the changes in volcanic activity. We suggest that it can be due to the superposition of the influence of solar and volcanic activity on changes in the thermal regime of Altai. Впервые с помощью вейвлет-анализа и анализа вейвлет-кросскогерентности и фаз проанализирована связь климатических изменений на Алтае, реконструированных по данным высокогорного ледникового керна, взятого с седловины горы Белуха, и вулканической активности, описанной индексами VEI, DVI и IVI, за последние 750 лет. Полученные фазовые соотношения изменений концентраций сульфатов в керне и вулканических индексов, а также противофазные низкочастотные статистически значимые сигналы между индексами вулканической активности и температурой воздуха позволяют говорить о зависимости изменений термического режима на Алтае от вулканической активности. При этом в малый ледниковый период отмечается запаздывание климатических изменений относительно вулканической деятельности, что может быть связано с наложением влияния солнечной активности на изменения термического режима.
format Article in Journal/Newspaper
author N. Malygina S.
T. Barlyaeva V.
T. Papina S.
Н. Малыгина С.
Т. Барляева В.
Т. Папина С.
author_facet N. Malygina S.
T. Barlyaeva V.
T. Papina S.
Н. Малыгина С.
Т. Барляева В.
Т. Папина С.
author_sort N. Malygina S.
title Link of volcanic activity and climate change in Altai studied in the ice core from Belukha Mountain
title_short Link of volcanic activity and climate change in Altai studied in the ice core from Belukha Mountain
title_full Link of volcanic activity and climate change in Altai studied in the ice core from Belukha Mountain
title_fullStr Link of volcanic activity and climate change in Altai studied in the ice core from Belukha Mountain
title_full_unstemmed Link of volcanic activity and climate change in Altai studied in the ice core from Belukha Mountain
title_sort link of volcanic activity and climate change in altai studied in the ice core from belukha mountain
publisher IGRAS
publishDate 2015
url https://ice-snow.igras.ru/jour/article/view/107
https://doi.org/10.15356/2076-6734-2013-2-112-120
genre Annals of Glaciology
ice core
Белуха
genre_facet Annals of Glaciology
ice core
Белуха
op_source Ice and Snow; Том 53, № 2 (2013); 112-120
Лёд и Снег; Том 53, № 2 (2013); 112-120
2412-3765
2076-6734
10.15356/2076-6734-2013-2
op_relation Astafieva N.M. Veivlet-analysis: basis of theory and examples of application. Uspekhi fizicheskikh nauk. Successes of physical sciences. 1996, 166 (11): 1145–1170. [In Russian].
Barlyaeva T.V., Mironova I.A., Ponyavin D.I. On nature of the decade variation in climatic data of the second half of XX century. Doklady Akademii Nauk. Proc. of the Academy of Sciences. 2009, 425 (3): 395–399. [In Russian].
Zhilina T.N. Zapadnaya Sibir v malyi lednikovyi period: priroda i russkaya kolonizatsiya (1550–1850 gg.). West Siberia in the Little Ice Age: nature and Russian colonization (1550–1850). Tomsk: Optimum, 2009: 162 p. [In Russian].
Monin A.S., Sonechkin D.M. Kolebaniya klimata po dannym nablyudeniy: troynoy solnechnyi i drugie tsikly. Climate fluctuations according to observation data: triple solar and other cysles. Moscow: Nauka, 2005: 191 p. [In Russian].
Khain V.E., Khalilov E.N. Prostranstvenno-vremennye zakonomernosti seysmicheskoy i vulkanicheskoy aktivnosti. Spatial and temporal peculiarities of seismic and volcanic activity. Burgas: SWB, 2008: 304 p. [In Russian].
Briffa K.R., Schweingruber F.H., Jones P.D., Osborn T.J., Shiyatov S.G., Vaganov E.A. Reduced sensitivity of recent tree growth to temperature at high northern latitudes. Nature. 1998, 391: 678–682.
Castellano E., Becagli S., Jouzel J., Migliori A., Severi M., Steffensen J.P., Traversi R., Udisti R. Volcanic eruption frequency over the last 45 ky as recorded in Epica-Dome C ice core (East Antarctica) and its relationship with climatic changes. Global and Planetary Change. 2004, 42: 195–205.
Castellano E., Becagli S., Hansson M., Hutteli M., Petit J.R., Rampino M.R., Severi M., Steffensen J.P., Traversi R., Udisti R. Holocene volcanic history asrecorded in the sulfate stratigraphy of the European Project for Ice Coring in Antarctica Dome C (EDC96) ice core. Journ. of Geophys. Research. 2005, 110: D06114. doi:10.1029/2004JD005259.
Chenoweth M. Ships' Logbooks and «The Year Without a Summer». Bull. Amer. Metor. Soc. 1996, 77: 2077–2094.
Cole-Dai J. Volcanoes and climate. WIREs Climate Change. 2010, 1 (6): 824–839.
Cole-Dai J., Ferris D., Lanciki A., Savarino J., Baroni M., Thiemens M.H. Cold decade (AD 1810–1819) caused by Tambora (1815) and another (1809) stratospheric volcanic eruption. Geophys. Research Letters. 2009, 36: L22703. doi:10.1029/2009GL040882.
D’Arrigo R., Jacoby G., Free M., Robock A. Northern Hemisphere temperature variability for the past three centuries: tree-ring and model estimates. Climatic Change. 1999, 42: 663–675.
Delmas R.J., Boutron C.F. Are the past variations of the stratospheric sulfate burden recorded in central Antarctic snow and ice layers? Journ. of Geophys. Research. 1980, 85: 5645–5649.
Delmas R.J., Legrand M., Delmas R.J. Spatial and temporal variations of snow chemistry in Terre Adélie (East Antarctica). Annals of Glaciology. 1985, 7: 20–25.
Eichler A., Olivier S., Henderson K., Laube A., Beer J., Papina T., Gaggeler H.W., Schwikowski M. Temperature response in the Altai region lags solar forcing. Geophys. Research Letters. 2009, 36: L01808. doi:10.1029/2008GL035930.
Hammer C. U. Dating of Greenland ice cores by microparticle concentration analyses // In Isotopes and Impurities in Snow and Ice (Proc. of the Grenoble Symposium). IAHS Publ. 118. 1977: 297–301.
Hammer C.U., Clausen H.B., Dansgaard W. Greenland ice sheet evidence of post-glacial volcanism and its climatic impact. Nature. 1980, 288: 230–235.
Jansen E., Overpeck J., Briffa K.R., Duplessy J.-C., Joos F., Masson-Delmotte V., Olago D., Otto-Bliesner B., Peltier W.R., Rahmstorf S., Ramesh R., Raynaud D., Rind D., Solomina O., Villalba R., Zhanget D. Paleoclimate. Climate Change 2007: The Physical Science Basis Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom and New York: Cambridge University Press, 2007: 433–497.
Jones P.D., Briffa K.R., Schweingruber F.H. Tree-ring evidence of the widespread effects of explosive volcanic eruptions. Geophys. Research Letters. 1995, 22 (110): 1333–1336.
Kurbatov A.V., Zielinski G.A., Dunbar N.W., Mayewski P.A., Meyerson E.A., Sneed S.B., Taylor K.C. A 12,000 year record of explosive volcanism in the Siple Dome Ice Core, West Antarctica. Journ. of Geophys. Research (Atmospheres). 2006, 111 (10): D12307.
LaMarche V.C., Hirschboeck K.K. Frost rings in trees as records of major volcanic eruptions. Nature. 1984, 307: 121–126.
Lamb H.H. Volcanic dust in the atmosphere, with a chronology and assessment of its meteorological significance. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 1970. Ser. A, 266: 425–533.
Lamb H.H. Supplementary volcanic dust veil index assessments. Climate Monitoring. 1977, 6: 57–67.
Lamb H.H. Update of the chronology of assessments of the volcanic dust veil index. Climate Monitoring. 1983, 12: 79–90.
Maraun D., Kurths J. Cross wavelet analysis: significance testing and pitfalls. Nonlin. Processes Geophys. 2004, 11: 505–514.
Meehl G.A., Stocker T.F., Collins W.D., Friedlingstein P., Gaye A.T., Gregory J.M., Kitoh A., Knutti R., Murphy J.M., Noda A., Raper S.C.B., Watterson I.G., Weaver A.J., Zhao Z.-C. Global climate projections. Climate Change 2007: The Physical Science Basis Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom and New York: Cambridge University Press, 2007: 747–845.
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Oliver S. Atmospheric and climate history of the past two centuries from Belukha ice core, Siberian Altai. Inauguraldissertation. Der Philosophisch-naturwissenschaftlichen Fakultät der Universität Bern. Bern, den 22.12.2004: 147 p.
Olivier S., Blaser C., Brutsch S., Frolova N., Gaggeler H.W., Henderson K.A., Palmer A.S., Papina T., Schwikowski M. Temporal variations of mineral dust, biogenic tracers, and anthropogenic species during the past two centuries from Belukha ice core, Siberian Altai. Journ. of Geophys. Research. 2006, 111: D05309. doi:10.1029/2005JD005830.
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Robock A., Free M.P. Ice cores as an index of global volcanism from 1850 to the present. Journ. of Geophys. Research. 1995, 100: 11549–11567.
Robock A., Mao J. The volcanic signal in surface temperature observations. Journ. Climate. 1995, 8: 1086–1103.
Robock A., Free M.P. The volcanic record in ice core for the past 2000 years. Climatic Variations and Forcing Mechanisms of the Last 2000 Years. Springer–Verlag, New York. 1996: 533–546.
Salzer M.W., Hughes M.K. Bristlecone pine tree rings and volcanic eruptions over the last 5000 years. Quaternary Research. 2007, 67: 57–68.
Sapper K. Beitrage zur Geographie der tätigen Vulkane. Zeitschrift für Vulkanologie. 1917, 3: 65–197.
Sato M., Hansen J.E., McCormick M.P., Pollack J.B. Stratospheric aerosol optical depths 1850–1990. Journ. of Geophys. Research. 1993, 98: 22987–22994.
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http://www.pol.ac.uk/home/research/waveletcoherence/
https://ice-snow.igras.ru/jour/article/view/107
doi:10.15356/2076-6734-2013-2-112-120
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spelling ftjias:oai:oai.ice.elpub.ru:article/107 2024-09-15T17:40:02+00:00 Link of volcanic activity and climate change in Altai studied in the ice core from Belukha Mountain Связь вулканической активности и климатических изменений на Алтае по данным исследования ледникового керна горы Белуха N. Malygina S. T. Barlyaeva V. T. Papina S. Н. Малыгина С. Т. Барляева В. Т. Папина С. 2015-04-02 https://ice-snow.igras.ru/jour/article/view/107 https://doi.org/10.15356/2076-6734-2013-2-112-120 ru rus IGRAS Astafieva N.M. Veivlet-analysis: basis of theory and examples of application. Uspekhi fizicheskikh nauk. Successes of physical sciences. 1996, 166 (11): 1145–1170. [In Russian]. Barlyaeva T.V., Mironova I.A., Ponyavin D.I. On nature of the decade variation in climatic data of the second half of XX century. Doklady Akademii Nauk. Proc. of the Academy of Sciences. 2009, 425 (3): 395–399. [In Russian]. Zhilina T.N. Zapadnaya Sibir v malyi lednikovyi period: priroda i russkaya kolonizatsiya (1550–1850 gg.). West Siberia in the Little Ice Age: nature and Russian colonization (1550–1850). Tomsk: Optimum, 2009: 162 p. [In Russian]. Monin A.S., Sonechkin D.M. Kolebaniya klimata po dannym nablyudeniy: troynoy solnechnyi i drugie tsikly. Climate fluctuations according to observation data: triple solar and other cysles. Moscow: Nauka, 2005: 191 p. [In Russian]. Khain V.E., Khalilov E.N. Prostranstvenno-vremennye zakonomernosti seysmicheskoy i vulkanicheskoy aktivnosti. Spatial and temporal peculiarities of seismic and volcanic activity. Burgas: SWB, 2008: 304 p. [In Russian]. Briffa K.R., Schweingruber F.H., Jones P.D., Osborn T.J., Shiyatov S.G., Vaganov E.A. Reduced sensitivity of recent tree growth to temperature at high northern latitudes. Nature. 1998, 391: 678–682. Castellano E., Becagli S., Jouzel J., Migliori A., Severi M., Steffensen J.P., Traversi R., Udisti R. Volcanic eruption frequency over the last 45 ky as recorded in Epica-Dome C ice core (East Antarctica) and its relationship with climatic changes. Global and Planetary Change. 2004, 42: 195–205. Castellano E., Becagli S., Hansson M., Hutteli M., Petit J.R., Rampino M.R., Severi M., Steffensen J.P., Traversi R., Udisti R. Holocene volcanic history asrecorded in the sulfate stratigraphy of the European Project for Ice Coring in Antarctica Dome C (EDC96) ice core. Journ. of Geophys. Research. 2005, 110: D06114. doi:10.1029/2004JD005259. Chenoweth M. Ships' Logbooks and «The Year Without a Summer». Bull. Amer. Metor. Soc. 1996, 77: 2077–2094. Cole-Dai J. Volcanoes and climate. WIREs Climate Change. 2010, 1 (6): 824–839. Cole-Dai J., Ferris D., Lanciki A., Savarino J., Baroni M., Thiemens M.H. Cold decade (AD 1810–1819) caused by Tambora (1815) and another (1809) stratospheric volcanic eruption. Geophys. Research Letters. 2009, 36: L22703. doi:10.1029/2009GL040882. D’Arrigo R., Jacoby G., Free M., Robock A. Northern Hemisphere temperature variability for the past three centuries: tree-ring and model estimates. Climatic Change. 1999, 42: 663–675. Delmas R.J., Boutron C.F. Are the past variations of the stratospheric sulfate burden recorded in central Antarctic snow and ice layers? Journ. of Geophys. Research. 1980, 85: 5645–5649. Delmas R.J., Legrand M., Delmas R.J. Spatial and temporal variations of snow chemistry in Terre Adélie (East Antarctica). Annals of Glaciology. 1985, 7: 20–25. Eichler A., Olivier S., Henderson K., Laube A., Beer J., Papina T., Gaggeler H.W., Schwikowski M. Temperature response in the Altai region lags solar forcing. Geophys. Research Letters. 2009, 36: L01808. doi:10.1029/2008GL035930. Hammer C. U. Dating of Greenland ice cores by microparticle concentration analyses // In Isotopes and Impurities in Snow and Ice (Proc. of the Grenoble Symposium). IAHS Publ. 118. 1977: 297–301. Hammer C.U., Clausen H.B., Dansgaard W. Greenland ice sheet evidence of post-glacial volcanism and its climatic impact. Nature. 1980, 288: 230–235. Jansen E., Overpeck J., Briffa K.R., Duplessy J.-C., Joos F., Masson-Delmotte V., Olago D., Otto-Bliesner B., Peltier W.R., Rahmstorf S., Ramesh R., Raynaud D., Rind D., Solomina O., Villalba R., Zhanget D. Paleoclimate. Climate Change 2007: The Physical Science Basis Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom and New York: Cambridge University Press, 2007: 433–497. Jones P.D., Briffa K.R., Schweingruber F.H. Tree-ring evidence of the widespread effects of explosive volcanic eruptions. Geophys. Research Letters. 1995, 22 (110): 1333–1336. Kurbatov A.V., Zielinski G.A., Dunbar N.W., Mayewski P.A., Meyerson E.A., Sneed S.B., Taylor K.C. A 12,000 year record of explosive volcanism in the Siple Dome Ice Core, West Antarctica. Journ. of Geophys. Research (Atmospheres). 2006, 111 (10): D12307. LaMarche V.C., Hirschboeck K.K. Frost rings in trees as records of major volcanic eruptions. Nature. 1984, 307: 121–126. Lamb H.H. Volcanic dust in the atmosphere, with a chronology and assessment of its meteorological significance. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 1970. Ser. A, 266: 425–533. Lamb H.H. Supplementary volcanic dust veil index assessments. Climate Monitoring. 1977, 6: 57–67. Lamb H.H. Update of the chronology of assessments of the volcanic dust veil index. Climate Monitoring. 1983, 12: 79–90. Maraun D., Kurths J. Cross wavelet analysis: significance testing and pitfalls. Nonlin. Processes Geophys. 2004, 11: 505–514. Meehl G.A., Stocker T.F., Collins W.D., Friedlingstein P., Gaye A.T., Gregory J.M., Kitoh A., Knutti R., Murphy J.M., Noda A., Raper S.C.B., Watterson I.G., Weaver A.J., Zhao Z.-C. Global climate projections. Climate Change 2007: The Physical Science Basis Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom and New York: Cambridge University Press, 2007: 747–845. Mitchell J.M. A preliminary evaluation of atmospheric pollution as a cause of the global temperature fluctuation of the past century. Global Effects of Environmental Pollution. Norwell, Mass, 1970: 139–155. Newhall C.G., Self S. The volcanic explosivity index (VEI): An estimate of explosive magnitude for historical volcanism. Journ. of Geophys. Research. 1982, 87: 1231–1238. Oliver S. Atmospheric and climate history of the past two centuries from Belukha ice core, Siberian Altai. Inauguraldissertation. Der Philosophisch-naturwissenschaftlichen Fakultät der Universität Bern. Bern, den 22.12.2004: 147 p. Olivier S., Blaser C., Brutsch S., Frolova N., Gaggeler H.W., Henderson K.A., Palmer A.S., Papina T., Schwikowski M. Temporal variations of mineral dust, biogenic tracers, and anthropogenic species during the past two centuries from Belukha ice core, Siberian Altai. Journ. of Geophys. Research. 2006, 111: D05309. doi:10.1029/2005JD005830. Randall D.A., Wood R.A., Bony S., Colman R., Fichefet T., Fyfe J., Kattsov V., Pitman A., Shukla J., Srinivasan J., Stouffer R.J., Sumi A., Taylor K.E. Climate models and their evaluation. Climate Change 2007: The Physical Science Basis Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom and New York: Cambridge University Press, 2007, 589–662. Robock A. Volcanic eruption and climate. Rev. Geophys. 2000, 38 (2): 191–219. doi:10.1029/1998RG000054. Robock A., Free M.P. Ice cores as an index of global volcanism from 1850 to the present. Journ. of Geophys. Research. 1995, 100: 11549–11567. Robock A., Mao J. The volcanic signal in surface temperature observations. Journ. Climate. 1995, 8: 1086–1103. Robock A., Free M.P. The volcanic record in ice core for the past 2000 years. Climatic Variations and Forcing Mechanisms of the Last 2000 Years. Springer–Verlag, New York. 1996: 533–546. Salzer M.W., Hughes M.K. Bristlecone pine tree rings and volcanic eruptions over the last 5000 years. Quaternary Research. 2007, 67: 57–68. Sapper K. Beitrage zur Geographie der tätigen Vulkane. Zeitschrift für Vulkanologie. 1917, 3: 65–197. Sato M., Hansen J.E., McCormick M.P., Pollack J.B. Stratospheric aerosol optical depths 1850–1990. Journ. of Geophys. Research. 1993, 98: 22987–22994. Simkin T., Siebert L., McClelland L., Bridge D., Newhall C.G., Latter J.H. Volcanoes of the World. Van Nostrand Reinhold, New York, 1981: 232 p. Simkin T., Siebert L. Volcanoes of the World. Geoscience Press, Tucson, Ariz., 1994: 349 p. Solomina O., Pavlova I., Curtis A., Jacoby G., Ponomareva V., Pevzner M. 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NOAA/NGDC Paleoclimatology Program, Boulder CO, USA (IGBP Pages/World Data Center for Paleoclimatology, Data Contribution Series No. 2000-075). http://www.ncdc.noaa.gov/paleo/ei/ei_data/volcanic.dat http://www.pol.ac.uk/home/research/waveletcoherence/ https://ice-snow.igras.ru/jour/article/view/107 doi:10.15356/2076-6734-2013-2-112-120 Authors who publish with this journal agree to the following terms:Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access). 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Ice and Snow; Том 53, № 2 (2013); 112-120 Лёд и Снег; Том 53, № 2 (2013); 112-120 2412-3765 2076-6734 10.15356/2076-6734-2013-2 Altai;climate change;ice core;volcanic eruptions info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2015 ftjias https://doi.org/10.15356/2076-6734-2013-2-112-12010.15356/2076-6734-2013-210.1029/2004JD00525910.1029/2009GL04088210.1029/2008GL03593010.1029/2005JD00583010.1029/1998RG000054 2024-06-28T03:05:47Z In the present research we discuss a role of volcanic activity in Altai thermal regime. Here we analyses the sulfate and temperature data reconstructed from the natural paleoarchive – ice core from the Belukha Mountain saddle. Sulfate ice-core reconstructions can serve as volcanic markers. The both – sulfate and temperature reconstructions – are for the last 750 years. As the characteristic of volcanic activity we consider Volcanic Explosivity Index (VEI), Dust Veil Index (DVI) and Ice core volcanic index (IVI). The analysis was done using wavelet analysis and analysis of wavelet cross coherence and phase. As the result, we conclude that observed increases in the values of the indexes VEI, DVI, IVI basically correspond to decreases of temperature and increases of sulfate concentrations. This confirms the dependence of changes in the thermal regime of the Altai from volcanic activity. But in the 1750–1850 years period there is a delay of the changes in temperature with respect to the changes in volcanic activity. We suggest that it can be due to the superposition of the influence of solar and volcanic activity on changes in the thermal regime of Altai. Впервые с помощью вейвлет-анализа и анализа вейвлет-кросскогерентности и фаз проанализирована связь климатических изменений на Алтае, реконструированных по данным высокогорного ледникового керна, взятого с седловины горы Белуха, и вулканической активности, описанной индексами VEI, DVI и IVI, за последние 750 лет. Полученные фазовые соотношения изменений концентраций сульфатов в керне и вулканических индексов, а также противофазные низкочастотные статистически значимые сигналы между индексами вулканической активности и температурой воздуха позволяют говорить о зависимости изменений термического режима на Алтае от вулканической активности. При этом в малый ледниковый период отмечается запаздывание климатических изменений относительно вулканической деятельности, что может быть связано с наложением влияния солнечной активности на изменения термического режима. Article in Journal/Newspaper Annals of Glaciology ice core Белуха Ice and Snow Earth Sciences Research Journal 23 4 317 329

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